copper incorporation via L-cysteinyl copper sulfido molybdopterin cytosine dinucleotide
cytochrome c-heme linkage via heme-bis-L-cysteine
cytochrome c-heme linkage via heme-L-cysteine
GPI anchor biosynthetic process via N-cysteinyl-glycosylphosphatidylinositolethanolamine
iron and molybdenum incorporation into iron-molybdenum-sulfur cluster via L-cysteinyl homocitryl molybdenum-heptairon-nonasulfide
iron incorporation into hydrogenase diiron subcluster via L-cysteine ligation
iron incorporation into iron-sulfur cluster via bis-L-cysteinyl-L-N3'-histidino-L-serinyl tetrairon tetrasulfide
iron incorporation into iron-sulfur cluster via pentakis-L-cysteinyl L-histidino nickel tetrairon pentasulfide
iron incorporation into iron-sulfur cluster via tetrakis-L-cysteinyl diiron disulfide
iron incorporation into iron-sulfur cluster via tetrakis-L-cysteinyl tetrairon tetrasulfide
iron incorporation into iron-sulfur cluster via tris-L-cysteinyl L-arginyl diiron disulfide
iron incorporation into iron-sulfur cluster via tris-L-cysteinyl L-cysteine persulfido bis-L-glutamato L-histidino nickel triiron disulfide trioxide
iron incorporation into iron-sulfur cluster via tris-L-cysteinyl L-cysteine persulfido L-glutamato L-histidino L-serinyl nickel triiron disulfide trioxide
iron incorporation into iron-sulfur cluster via tris-L-cysteinyl S-adenosylmethion-N,O-diyl tetrairon tetrasulfide
iron incorporation into iron-sulfur cluster via tris-L-cysteinyl triiron tetrasulfide
iron incorporation into iron-sulfur cluster via tris-L-cysteinyl-L-aspartato tetrairon tetrasulfide
iron incorporation into iron-sulfur cluster via tris-L-cysteinyl-L-cysteine persulfido-bis-L-glutamato-L-histidino tetrairon
iron incorporation into iron-sulfur cluster via tris-L-cysteinyl-L-N1'-histidino tetrairon tetrasulfide
iron incorporation into iron-sulfur cluster via tris-L-cysteinyl-L-N3'-histidino tetrairon tetrasulfide
iron incorporation into iron-sulfur cluster via tris-L-cysteinyl-L-serinyl tetrairon tetrasulfide
iron incorporation into protein via tetrakis-L-cysteinyl iron
iron incorporation into the Rieske iron-sulfur cluster via bis-L-cysteinyl bis-L-histidino diiron disulfide
molybdenum incorporation via L-cysteinyl copper sulfido molybdopterin cytosine dinucleotide
molybdenum incorporation via L-cysteinyl molybdopterin
molybdenum incorporation via L-cysteinyl molybdopterin guanine dinucleotide
N-terminal peptidyl-L-cysteine N-palmitoylation
N-terminal protein amino acid deamination, from amino carbon +
negative regulation of protein geranylgeranylation
nickel incorporation into iron-sulfur cluster via tris-L-cysteinyl L-cysteine persulfido bis-L-glutamato L-histidino nickel triiron disulfide trioxide
nickel incorporation into iron-sulfur cluster via tris-L-cysteinyl L-cysteine persulfido L-glutamato L-histidino L-serinyl nickel triiron disulfide trioxide +
nickel incorporation into nickel-iron-sulfur cluster via pentakis-L-cysteinyl L-histidino nickel tetrairon pentasulfide
peptide cross-linking via 2-(S-L-cysteinyl)-D-allo-threonine
peptide cross-linking via 2-(S-L-cysteinyl)-D-phenylalanine
peptide cross-linking via 2-(S-L-cysteinyl)-L-phenylalanine
peptide cross-linking via L-cystine
peptidyl-cysteine acetylation +
peptidyl-cysteine deglycation
peptidyl-cysteine methylation
peptidyl-cysteine modification to L-cysteine persulfide
peptidyl-cysteine modification to S-amindino-L-cysteine
peptidyl-cysteine oxidation
peptidyl-cysteine phosphorylation
peptidyl-cysteine S-carbamoylation
peptidyl-cysteine S-nitrosylation +
peptidyl-cysteine sulfation
peptidyl-L-3-oxoalanine biosynthetic process from peptidyl-cysteine or peptidyl-serine
peptidyl-L-beta-methylthioaspartic acid biosynthetic process from peptidyl-aspartic acid
peptidyl-L-cysteine S-myristoylation
peptidyl-pyrromethane cofactor linkage
peptidyl-S-12-hydroxyfarnesyl-L-cysteine biosynthetic process from peptidyl-cysteine
peptidyl-S-carbamoyl-L-cysteine dehydration
peptidyl-S-diacylglycerol-L-cysteine biosynthetic process from peptidyl-cysteine +
peptidyl-S-diphytanylglycerol diether-L-cysteine biosynthetic process from peptidyl-cysteine
peptidyl-S-farnesyl-L-cysteine biosynthetic process from peptidyl-cysteine
peptidyl-S-geranylgeranyl-L-cysteine biosynthetic process from peptidyl-cysteine
The modification of peptidyl-cysteine to form peptidyl-S-geranylgeranylcysteine; formation of S-geranylgeranyl-L-cysteine may be coupled with subsequent cleavage of a carboxy-terminal tripeptide for the CAAX motif and methyl esterification of the geranylgeranylated cysteine; methyl esterification but not cleavage occurs for the CXC motif. For the type II geranylgeranyltransferase the residue may be found at the first and final positions in the sequence motif C-X-C* or at the final position in the sequence motif C-C*. These motifs are necessary but not sufficient for modification.
peptidyl-S-palmitoleyl-L-cysteine biosynthetic process from peptidyl-cysteine
positive regulation of protein geranylgeranylation
protein S-linked glycosylation via cysteine
protein-FAD linkage via S-(8alpha-FAD)-L-cysteine
protein-heme P460 linkage via heme P460-bis-L-cysteine-L-lysine
protein-heme P460 linkage via heme P460-bis-L-cysteine-L-tyrosine
protein-phycocyanobilin linkage via S-phycocyanobilin-L-cysteine
protein-phycoerythrobilin linkage via phycoerythrobilin-bis-L-cysteine
protein-phycoerythrobilin linkage via S-phycoerythrobilin-L-cysteine
protein-phycourobilin linkage via phycourobilin-bis-L-cysteine
protein-phytochromobilin linkage via S-phytochromobilin-L-cysteine
regulation of protein geranylgeranylation +
Synonyms
Exact Synonyms:
peptidyl-S-geranylgeranyl-L-cysteine anabolism from peptidyl-cysteine
;
peptidyl-S-geranylgeranyl-L-cysteine formation from peptidyl-cysteine
;
peptidyl-S-geranylgeranyl-L-cysteine synthesis from peptidyl-cysteine